The cerebellum contains a circadian clock, generating internal temporal signals. The daily oscillations of cerebellar proteins were investigated here in mice using large-scale two-dimensional differences in gel electrophoresis (2D-DIGE). Analysis of 2D-DIGE gels highlighted the rhythmic variation in the intensity of 27/588 protein spots (5%) over 24-h based on cosinor regression. Notably, rhythmic expression of most abundant cerebellar proteins was clustered in two main phases (i.e., midday and midnight), leading to bimodal distribution. Only 6 proteins identified here to be rhythmic in the cerebellum are also known to oscillate in the suprachiasmatic nuclei, including 2 proteins involved in synapse activity (Synapsin 2 (Syn2) and vesicle-fusing ATPase (Nsf)), 2 others participating in carbohydrate metabolism (triosephosphate isomerase (Tpi1) and alpha-enolase (Eno1)), and Glutamine synthetase (Glul), as well as Tubulin alpha (Tuba4a). Most oscillating cerebellar proteins were not previously identified in circadian proteomic analyses of any tissue. Strikingly, daily accumulation of mitochondrial proteins was clustered to the mid-resting phase, as previously observed for distinct mitochondrial proteins in the liver. This study highlights extensive rhythmic aspects of the cerebellar proteome.